Chylomicrons, LDL, HDL β†’ Lipid transport and disorders😊😍

When total cholesterol is 300 mg/dL, HDL is 25 mg/dL, and triglycerides are 150 mg/dL, what is the value of LDL?

  1. 55
  1. 95
  1. 125
  1. 245
      2. ANS
      Total cholesterol = HDL + LDL + TG/5
      Therefore LDL=Total cholesterol-HDL-TG/5
      LDL=300-25-30
      LDL=      245mg/dl

Lipids

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  • HDL β†’ 1 (A1 - not transferrable), 2 (C2), 3 (E)
  • VLDL/LDL β†’ 100 (B100) + HDL
  • Chylomicrons β†’ 48 (B48) + HDL

Friedweld formula

  • Total cholesterol = HDL + LDL + TG/5
Apolipoprotein
Present in
Apo AI
HDL
Apo CII
Chylomicron, VLDL, IDL, HDL
Apo E
Chylomicron,
Remnant, VLDL, IDL, HDL
Bβ‚„β‚ˆ
Chylomicron, Remnant
B₁₀₀
VLDL, IDL, LDL

Fatty Acid Transport

  • Fatty acids need a carrier, Carnitine, for transport
    • to cross the inner mitochondrial membrane for oxidation

Rate Limiting Enzymes of Lipid Metabolism Pathways

Glucose Pathways
Rate Limiting Enzyme
Glycolysis
Phosphofructokinase-1
TCA Cycle / Krebs cycle
Isocitrate dehydrogenase
Gluconeogenesis
Fructose-1,6-bisphosphatase
Glycogen Synthesis
Glycogen synthase
Glycogenolysis
Glycogen phosphorylase
HMP Shunt (PPP)
Glucose-6-phosphate dehydrogenase
Lipid Pathways
γ…€
Fatty acid synthesis
Acetyl CoA carboxylase
Fatty acid oxidation
Carnitine acyl transferase 1
Cholesterol synthesis
HMG CoA Reductase
↳ Statins inhibit this enzyme
Ketone body synthesis
HMG CoA Synthase > HMG CoA Lyase
Bile acid synthesis
7Ξ± hydroxylase (Vit C)

Note:

Fate of Acetyl CoA
Enzyme
Note
↳ Fatty acid synthesis
Acetyl CoA Carboxylase
β€’ Stored as Triacylglycerol
↳ Cholesterol synthesis
HMG-CoA reductase
β€’ In fed state
β€’ Stored as Cholesterol ester
β€’ RLE in cholesterol synthesis
β€’ β›” by statins
↳ KB Synthesis
HMG-CoA lyase
β€’ In Starvation
  • NOTE:
    • HMG-CoA synthase
      • Common in both cholesterol and KB synthesis
      • RLE in ketone body synthesis

Hyperlipoproteinemias (Friedrickson's Classification)

γ…€
Type
Defect
↑ Lipid / Lipoprotein
Clinical Features
1
Familial Chylomicronemia
LPL deficiency or
Apo C-II deficiency
↑ Chylomicrons, ↑ TG
β€’ Pancreatitis
β€’ eruptive xanthomas
β€’ lipemia retinalis
β€’ Creamy supernatant, clear plasma
2a
Familial Hypercholesterolemia
LDL receptor deficiency
(or ApoB-100 defect)
↑ LDL, ↑ Cholesterol
β€’ Premature atherosclerosis
β€’ tendon xanthomas
β€’ corneal arcus
2b
Combined Hyperlipidemia
LDL receptor &
ApoB-100 defect
(↑ VLDL production)
↑ LDL + VLDL
β€’ Atherosclerosis
3
Familial Dysbetalipoproteinemia
ApoE defect
↑ Chylomicron remnants + IDL
β€’ Palmar & tuberoeruptive xanthomas
β€’ premature atherosclerosis
β€’ Broad beta bands
4
Familial Hypertriglyceridemia
Overproduction of VLDL
↑ VLDL, ↑ TG
β€’ Acute Pancreatitis
β€’ obesity
β€’ diabetes association
  • There are six types.
  • They are classified into three categories by lipid elevation:
    • Hypercholesterolemia.
    • Hypertriglyceridemia.
    • Both.

Clinical Features of Hyperlipoproteinemias

  • Hypercholesterolemia presents with:
    • Tendon Xanthomas.
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      • Small eruptive lesions along tendon attachments.
      • Pronounced on knuckles or ankles.
    • Accelerated Atherosclerosis.
  • Hypertriglyceridemia presents with:
    • Eruptive xanthomas.
      • Tinier than tendon xanthomas.
      • Present on extensive surfaces of limbs, especially elbows.
    • Recurrent pancreatitis.
    • Lipemia retinalis.
  • Isolated elevated Hypercholesterolemia:
    • Type 2a
    • Chola β†’ DolA β†’ 2a
  • Isolated elevated Triglycerides:
    • Type 1, Type 4, Type 5.
    • TriG β†’ 3 β†’ 1, 4, 5
  • Elevated both Cholesterol and Triglycerides:
    • Type 2b, Type 3.
    • Dola + Tri β†’ 2b + 3
  • Autosomal dominant
    • Type 2a, Type 4 and Type 5
  • Mnemonic:
    • Type 1 β†’ 1st β†’ from intestine β†’ ↑ TGA and chylomicrons
    • Type 2a β†’ 2nd β†’ from liver β†’ ↑ Cholesterol
    • Type 2b & 3 β†’ both ↑ TGA and cholesterol

Type IIa Hyperlipoproteinemia (Familial Hypercholesterolemia)

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  • It is an autosomal dominant
  • Only elevated Cholesterol.
  • Defect of the LDL receptor or Apo B100
    • prevents LDL clearance
      • LDL accumulation
      • Hypercholesterolemia.

Type I Hyperlipoproteinemia (Familial Chylomicronemia syndrome)

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  • Autosomal recessive
  • Caused by a defect of Apo CII or Lipoprotein lipase (LPL).
  • Chylomicrons:
    • Transport dietary TGA from the intestine to extrahepatic tissues.
    • Are drained by lymphatics, enter the thoracic duct, then systemic circulation.
    • Contain apoproteins:
      • Apo CII,
      • Apo E,
      • Apo B48.

Metabolism:

  • Apo CII β†’ activates LPL, which is held to vessel walls by Heparan sulphate.
  • LPL cleaves chylomicron triacylglycerol into glycerol and fatty acids.
  • Fatty acids enter extrahepatic tissues.
  • Glycerol is used by the liver.
  • Chylomicrons become remnants after losing triacylglycerol.
  • Remnants are accepted by liver LDL or remnant receptors.
    • LDL receptor β†’ accepts Apo E or Apo B100
    • Remnant receptor β†’ accepts Apo E

Defects in Apo CII or LPL

  • prevent chylomicron metabolism.
  • This leads to chylomicron accumulation.
  • Causes Familial Chylomicronemia syndrome.

Features:

  • Massive hypertriglyceridemia.
    • Recurrent pancreatitis.
    • Eruptive xanthoma.
    • Lipemia retinalis.

Diagnosis:

  • Check lipoprotein lipase enzyme activity.
  • Inject Heparin to detach LPL into the blood.
    • ↓↓ post-heparinised LPL activity confirms the diagnosis.

Type III Hyperlipoproteinemia /
Familial Dysbetalipoproteinemia (D - E)

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  • Homozygous E2 mutation.
    • Normal: Homozygous E3 allel
    • β†’ Apo E defect.
      • Mnemonic:
        • Three β†’ Eee (Apo E)
        • Dys beta β†’ bad β†’ beat in palm (Palmaris striae, palmaris xanthoma) with a tube β†’ erupted (Tubero eruptive) β†’ 2 times (E2) Cried EEEee (Apo E) β†’ grapes (bunch of grapes)
      • Results in elevation of both cholesterol and triglycerides.
  • Cerebral amyloid disease?

Also called:

  • Remnant disease
    • as remnant lipoproteins are not cleared.
  • Broad Beta disease.
    • Lipoprotein Electrophoresis:
      • Broad Beta Band (Pathognomic)
  • Familial Dysbetalipoproteinemia.

Dermatological pathognomic feature:

  • Palmar eruptive xanthomas.
  • Palmaris Xanthoma striae
    • yellowish discoloration of palmar creases
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Abetalipoproteinemia (A - B)

  • Mnemonic: A beta () β†’ Beta illa (Failure to thrive) β†’ Beta ye Akkan (Acanthocytes) MTP (MTP gene) cheyth
    • Body rash (Petechial rash) ulla akkan
    • Fat (Lipid laden enterocytes on biopsy)
    • Last β†’ Akkanu bleeding (Vitamin K↓↓↓) vann, kazcha poi (Retinitis pigmentosa)
    • Vitamin E tratment
        • notion image
  • Autosomal recessive (AR)
  • Mutation in
    • MTP gene in intestine
      • (Microsomal Triglyceride Transfer Protein)
    • β†’ ↓↓ synthesis of apo B48 and B100 lipoproteins
      • β†’ absence of chylomicrons, LDL, VLDL
  • Lipoproteins ↓:
    • Chylomicrons, VLDL, LDL

Clinical features:

  • Infancy:
    • Fat malabsorption,
    • steatorrhea,
    • failure to thrive

Later:

  • Retinitis pigmentosa
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  • Spinocerebellar ataxia
  • Acanthocytosis
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  • Petechial rash
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  • Bleeding manifestations
    • due to ↓ fat-soluble vitamins like K and E

Diagnosis:

  • Lipid-laden enterocytes on biopsy
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Treatment:

  • Restrict long-chain fatty acids;
  • high-dose vitamin E

Retinitis Pigmentosa

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Triad:

  • Arteriolar attenuation
  • Waxy pale Optic disk
  • Bony spicules
Β 
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Mnemonic:
  • Bony spicules
  • Pigmentary epithelium
  • Donut scotoma/tunnel vision
  • Night β†’ Nyctalopia
  • Moon β†’ Lawrence moon biedl syndrome
    • Moon has law in bed
Β 

Features

  • Rod-cone dystrophy (Rods > cones affected).
  • M/c inheritance: Autosomal recessive (M/c hereditary fundus dystrophy)
  • Cause: ↓↓ Docosahexanoic acid
  • Clinical Features:
    • Nyctalopia.
    • Ring/donut scotoma/tunnel visionΒ (rods affected).
    • Bony spicule pigmentation.
    • Arteriolar attenuation
      • Waxy, pale optic disc.
  • Systemic association:
    • Lawrence-Moon-Biedl syndrome.
  • Usher Sx β†’ RP + SNHL
  • Treatment:
    • Genetic counselling (no specific treatment).
  • ERG Interpretation:
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    • a wave (photoreceptors)
    • b wave (bipolar & Muller’s cells)
    • c wave (pigment epithelium metabolic activity)
    • Abnormal ERG in Retinitis Pigmentosa
      • Rods > cons photoreceptors affected
      • a wave absent

Tangier's Disease:

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  • Characterised by orange-coloured tonsils.
  • Cholesterol esters accumulate in extrahepatic tissues, causing:
    • Greyish-orange tonsils.
    • Hepatosplenomegaly.
    • Mononeuritis multiplex.
  • ABC students drink Tang β†’ don't get A1 β†’ cant multiply
  • Caused by a mutation in ABC1 (ATP Binding Cassette transporter 1).
  • Key Characteristic:
    • SignificantlyΒ reduced levels of apo A1β†’ very low HDL levels.
        • Profile Component
        Level
        HDL
        ↓↓
        LDL
        ↓
        TAG
        ↑
        Total Cholesterol
        Normal/Low
        Apo A1
        ↓↓

Fish Eye Disease β†’ LpX

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  • Partial LCAT deficiency / Hypo alpha lipoproteinemia (↓ LDL)
  • LCAT
    • discoidal HDL β†’ spheroidal HDL
      • Deficiency β†’ ↑↑ Discoidal HDL
      • Discoidal HDL β†’ lamellar structure β†’ cannot move
  • Electrophoresis
    • Appears as band at application point = Lipoprotein X (LpX)
  • Features
    • No anemia (unlike full LCAT deficiency)
    • Chronic Kidney Disease
      • LpX accumulates in mesangium
    • Corneal opacity (fish eye disease)
      • Cholesterol ester accumulation
  • NOTE
    • Norum’s disease
      • Complete LCAT deficiency
      • Nooru (100) β†’ complete

HDL

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  • Highest Apoprotein concentration
  • Site: Liver & Intestine
  • Steps
      1. Apo AI activates LCAT
      1. Formation of Cholesterol Esters
      1. Discoidal HDL β†’ Mature/Spherical HDL3 β†’ Delivers cholesterol to liver
      1. Reverts to HDL3
      1. Function: Facilitates reverse cholesterol transport

Lipoprotein electrophoresis

Q. Lipoprotein electrophoresis of a patient presenting with chronic kidney disease, corneal opacity, low HDL is provided here. The band identified as A and the disorder is?

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  • (Image showing Lipoprotein electrophoresis with bands and band A at application point).
    • A. M band and Multiple Myeloma.
    • B. Chylomicron and Type I Hyperlipoproteinemia.
    • C. LDL and Type II Hyperlipoproteinemia.
    • D. LpX and complete LCAT deficiency.
Explanation:
  • Arrow = Point of application.
  • Farthest band = Alpha band (HDL).
  • Band A is at the arrow mark in the patient's pattern.
  • LCAT deficiency:
    • Presence of Lipoprotein X (LpX)
    • LpX band at the point of application.
    • Findings:
      • Low HDL β†’ Hypo alpha lipoproteinemia
      • Corneal opacity β†’ Fish eye disease
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  • Done on a glass slide
  • Support medium: Agarose
  • Serum lipoprotein applied at one end
  • Glass slide connected to electrical supply
  • Negative electrode:
    • near application point
  • Positive electrode:
    • opposite point
  • On current supply β†’ lipoproteins move toward oppositely charged electrode
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Migration depends on

  • Number of negative charges
    • More charges β†’ more rapid movement
  • Size
    • Larger particles move poorly

VLDL

  • Endogenous TAG

LDL

  • Max Cholesterol

Alpha band / HDL

  • Moves farthest
  • Min TAG
  • Max PL
  • Max protein
  • Has more negative charges

Chylomicron band

  • Moves closest (due to huge size)
  • Maximum TAG
  • Fasting sample required
  • Normally absent
  • It is a product of dietary triacylglycerol
  • Presence indicates:
    • Patient not fasting
    • Or chylomicron elevated β†’ Familial Chylomicronemia Syndrome

Obstructive jaundice

  • Bile salt concentration in circulation ↑
  • Forms lamellar structure
  • Appears as band at application point

Other normal bands

  • Beta band β†’ LDL
  • Pre-Beta band β†’ VLDL

Remnant concentration

  • Normally too low to detect
  • If present β†’ after beta band
  • Type III hyperlipoproteinemia / remnant disease
    • Remnant band significant
    • Appears as broad beta band